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The fault-controlled skarn W-Mo polymetallic mineralization during the main India-Eurasia collision: Example from Hahaigang deposit of Gangdese metallogenic belt of Tibet
Xiaofeng Li; Chunzeng Wang; Wei Mao; Qinghong Xu; Yaohui Liu
2014
发表期刊Ore Geology Reviews
卷号58期号:1页码:27-40
摘要

The Hahaigang W-Mo polymetallic skarn deposit is located in the central-eastern part of Gangdese tectonomagmatic belt in Lhasa terrane, Tibet. The deposit was discovered in 2007 with currently proven 46 million tons of WO3 ores, 12 million tons of Mo ores, and 1.31 million tons of combined Cu-Pb-Zn ores, at an average grade of 0.20% WO3, 0.07% Mo, 0.026% Cu, 0.49% Pb, and 3.1% Zn. Ore bodies occur in veins or disseminations, and are confined within the NE-striking Dalong fault zone which is hosted by the Lower-Permian Pangna Group of dominantly quartz sandstone and slate. Several granitic plutons are exposed in the area or known from drill-holes. Ages of these granitic plutons are determined by using zircon U-Pb LA-ICP-MS method. For example, the biotite monzogranite yields a Pb-206/U-238-Pb-207/U-238 concordia age of 58.66 +/- 0.90 Ma and a weighted mean Pb-206/U-238 age of 57.02 +/- 0.42 Ma. The granite porphyry yields a Pb-206/U-238-Pb-207/U-238 concordia age of 109.1 +/- 8.9 Ma and a weighted mean Pb-206/U-238 age of 114.0 +/- 2.6 Ma. The biotite monzogranite yields a weighted mean Pb-206/U-238 age of 56.1 +/- 1.1 Ma. Re-Os isochron age of 63.2 +/- 3.2 Ma from 5 molybdenite samples collected from the W-Mo skarn ores is also obtained in this study. The zircon U-Pb and molybdenite Re-Os geochronological data suggest that the W-Mo mineralization was not temporally associated with any of the dated igneous plutons. However, the molybdenite Re-Os age of 63.2 +/- 3.2 Ma indicates that the W-Mo mineralization might have occurred during the main India-Eurasia collision that was initiated around 65 Ma. Microprobe analysis of ilvaite that occurs in two generations in the W-Mo skarn ores reveals a close relationship to Ca-Fe-F-rich hydrothermal fluids, which were probably derived from deeply-seated magmas. We suggest that ascent of the fluids was strictly controlled by the ore-controlling Dalong fault zone, and that chemical interaction and metasomatism between the fluids and the Lower-Permian Pangna quartz-feldspathic host rocks produced the ilvaite and the W-Mo polymetallic skarn deposit during the main India-Eurasia collision. Although the majority of the polymetallic deposits in the Gangdese belt are reported to be either pre- or post-main collision, it is evident from this study that the main collision also produced W-Mo polymetallic mineralization within the belt.

关键词W–mo Polymetallic Mineralization Skarn Ilvaite Geochronology India–eurasia Collision Hahaigang Deposit Gangdese Belt Tibet
学科领域矿床地球化学
收录类别SCI
语种英语
文献类型期刊论文
条目标识符http://ir.gyig.ac.cn/handle/352002/5195
专题矿床地球化学国家重点实验室_矿床地球化学国家重点实验室_期刊论文
矿床地球化学国家重点实验室
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GB/T 7714
Xiaofeng Li,Chunzeng Wang,Wei Mao,et al. The fault-controlled skarn W-Mo polymetallic mineralization during the main India-Eurasia collision: Example from Hahaigang deposit of Gangdese metallogenic belt of Tibet[J]. Ore Geology Reviews,2014,58(1):27-40.
APA Xiaofeng Li,Chunzeng Wang,Wei Mao,Qinghong Xu,&Yaohui Liu.(2014).The fault-controlled skarn W-Mo polymetallic mineralization during the main India-Eurasia collision: Example from Hahaigang deposit of Gangdese metallogenic belt of Tibet.Ore Geology Reviews,58(1),27-40.
MLA Xiaofeng Li,et al."The fault-controlled skarn W-Mo polymetallic mineralization during the main India-Eurasia collision: Example from Hahaigang deposit of Gangdese metallogenic belt of Tibet".Ore Geology Reviews 58.1(2014):27-40.
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